Phylogenetics support an ancient common origin of two scientific icons: Devils Hole and Devils Hole pupfish

Sağlam, İsmail K.; Baumsteiger, Jason; Smith, Matt; Linares-Casenave, Javier; Nichols, Andrew L.; O’Rourke, Sean; Miller, Michael R.

doi:10.1111/mec.13732

Cited by 25 publications

(31 citation statements)

References 59 publications

(185 reference statements)

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“…Therefore, in this study, instead of employing the more widely used concatenation (i.e., super-matrix) methods, we used a coalescence-based method to estimate the species phylogeny from a collection of gene trees by treating each concatenated set of RAD sequences within scaffolds as independent genomic regions (Song et al 2012;Saglam et al 2016). This method not only allowed different genomic regions to have different topologies (enabling us to effectively model gene tree heterogeneity) but also resulted in a species/population tree where each branching event describes divergence between species/populations as opposed to divergence of genes or haplotypes.…”

Section: Subspeciesmentioning

confidence: 99%

Genomic Analysis Reveals Genetic Distinctiveness of the Paiute Cutthroat Trout Oncorhynchus clarkii seleniris

et al. 2017

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The Paiute Cutthroat Trout (PCT) Oncorhynchus clarkii seleniris is classified as a subspecies within the greater Cutthroat Trout O. clarkii ssp. complex and is federally listed as threatened under the Endangered Species Act. However, genetic studies to date have revealed very little genetic differentiation between the PCT and its closest relative, the Lahontan Cutthroat Trout (LCT) O. clarkii henshawi. These results casted doubt on whether the PCT is a genetically distinct subspecies or merely a phenotypic variant of the LCT. Here, we present a genomic analysis of Cutthroat Trout subspecies and populations to resolve the genetic and phylogenetic relationship between PCT and LCT. Our results demonstrate substantial genetic structure and differentiation between PCT and LCT populations. In contrast to current thinking, our phylogenetic reconstructions show the PCT to be a distinct evolutionary lineage that diverged from LCT before the LCT differentiated into its current populations (i.e., rather than PCT divergence due to geographic isolation from an LCT population in the Carson River). We conclude that the PCT is genetically distinct from the LCT.

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Section: Subspeciesmentioning

confidence: 99%

Genomic Analysis Reveals Genetic Distinctiveness of the Paiute Cutthroat Trout Oncorhynchus clarkii seleniris

et al. 2017

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“…Many species of Cyprinodon occur in desert water systems, where allopatrically distributed species isolated in different desert springs exhibit a wide range of morphological and physiological diversity (Miller, ). The genus includes species with some of the most restricted geographic distributions among vertebrates, exemplified by the Devil's Hole pupfish ( C. diabolis ), a species entirely confined to a single aquifer pool in Ash Meadows, Nevada (Martin, Crawford, Turner, & Simons, ; Sağlam et al, ). However, other species of Cyprinodon are widely distributed, such as Cyprinodon variegatus that occurs in estuaries and brackish ponds along the Atlantic coastline from Massachusetts to the Gulf of Mexico and throughout the Caribbean.…”

Section: Introductionmentioning

confidence: 99%

“…Research on Cyprinodon spans an array of disciplines including phylogenetic inferences of North American paleoenvironments (Echelle, ; Echelle et al, ) use as models to understand how organisms adapt and tolerate stressful environments (Naiman, Gerking, & Ratcliff, ; Naiman, Gerking, & Stuart, ; Plath & Strecker, ), as ecotoxicology models and biological indicators of estuarine health (Bowman, Kroll, Hemmer, Folmar, & Denslow, ; Raimondo et al, ), and as conservation models to understand the dynamics of small population size (Martin et al, ; Sağlam et al, ). Furthermore, evolutionary biologists study fishes in the genus Cyprinodon to understand the mating behavior (Kodric‐Brown, ; West & Kodric‐Brown, ), speciation and hybridization (Martin, ; Martin & Feinstein, ; McGirr & Martin, ; Richards & Martin, ; Rosenfield & Brown, ; Turner, Duvernell, Bunt, & Barton, ), and the role of developmental plasticity in morphological evolution (Lema, , , ).…”

Section: Introductionmentioning

confidence: 99%

An embryonic staging series up to hatching for Cyprinodon variegatus: An emerging fish model for developmental, evolutionary, and ecological research

Lencer

McCune

2018

Journal of Morphology

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Using multiple taxa to research development is necessary for making general conclusions about developmental patterns and mechanisms. We present a staging series for Cyprinodon variegatus as a basis for further study of the developmental biology of fishes in the genus Cyprinodon and for comparative work on teleost fishes beyond the standard models. Cyprinodon are small, euryhaline fishes, widely distributed in fresh, brackish, and hypersaline waters of southern and eastern North America. Cyprinodontids are closely related to fundulids, providing a comparative reference point to the embryological model, Fundulus heteroclitus. Ecologists and evolutionary biologists commonly study Cyprinodon, and we have been using Cyprinodon to study skull variation and its genetic basis among closely related species. We divided embryonic development of C. variegatus into 34 morphologically identifiable stages. We reference our staging series to that already defined for a related model species, Oryzias latipes (medaka) that is studied by a large community of researchers. We provide a description of the early chondrogenesis and ossification of skull and caudal fin bones during the latter stages of embryonic development. We show that Cyprinodon are tractable for studying development. Eggs can be obtained easily from breeding pairs and our study provides a staging system to facilitate future developmental studies.

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“…Searching for complex histories of gene flow and introgression within endangered taxa can also highlight the need for alternative management strategies to preserve this dynamic: Are endangered species relics that must be isolated or complex interconnected communities that would not persist without periodic influxes of secondary gene flow (Martin et al., ; Wayne & Shaffer, )? Answering this question is of critical importance for proper management (e.g., Eldridge et al., ; Kennedy, Grueber, Duncan, & Jamieson, ; Martin et al., ; Robinson et al., ); however, scientists should not fall into the trap of claiming that a species' age “is vital for determining its status as a critically endangered species” (Sağlam et al., ).…”

Section: Introductionmentioning

confidence: 99%

“…Sağlam et al. (); hereafter SEA) recently estimated the age of DHP. They compared divergence times with the neighbouring Ash Meadows Amargosa pupfish population ( C. nevadensis mionectes ) and one outgroup (Owens pupfish, C. radiosus ) by placing restrictive prior distributions on divergence times corresponding to four different scenarios, which has the effect of eliminating nearly all uncertainty in their divergence time estimates.…”

Section: Introductionmentioning

confidence: 99%

New evidence for the recent divergence of Devil's Hole pupfish and the plausibility of elevated mutation rates in endangered taxa

Martin

Höhna

2017

Molecular Ecology

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Sa glam et al. recently argued that the Devil's Hole pupfish (Cyprinodon diabolis), a conservation icon with the smallest known species range, was isolated 60 kya based on a new genomic data set. If true, this would be a radically long timescale for any species to persist at population sizes <500 individuals, in contrast to conservation genetics theory. However, here we argue that their analyses and interpretation are inappropriate. They placed highly restrictive prior distributions on divergence times, which do not appropriately model the large uncertainty and result in removing nearly all uncertainty from their analyses, and chose among models by assuming that pupfishes exhibit human mutation rates. We reanalysed their data with their same methods, only using an informative prior for the plausible range of mutation rates observed across vertebrates, including an estimate of the genomewide mutation rate from a pedigree analysis of cichlid fishes. In fact, Saglam et al.'s phylogenetic data support much younger median divergence times for C. diabolis, ranging from 6.2 to 19.9 kya, overlapping with our previous phylogenetic divergence time estimates of 2.5-6.5 kya. There are many reasons to suspect an even younger age and higher mutation rate in C. diabolis, as we previously estimated, due to their high metabolism, small adult size, small population size and severe environmental stressors. In conclusion, our results highlight the need for measuring mutation rate in this fascinating species and suggest that the ages of endangered taxa present in small, isolated populations may frequently be overestimated.

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Phylogenetics support an ancient common origin of two scientific icons: Devils Hole and Devils Hole pupfish

Cited by 25 publications

References 59 publications

Genomic Analysis Reveals Genetic Distinctiveness of the Paiute Cutthroat Trout Oncorhynchus clarkii seleniris

Genomic Analysis Reveals Genetic Distinctiveness of the Paiute Cutthroat Trout Oncorhynchus clarkii seleniris

An embryonic staging series up to hatching for Cyprinodon variegatus: An emerging fish model for developmental, evolutionary, and ecological research

New evidence for the recent divergence of Devil's Hole pupfish and the plausibility of elevated mutation rates in endangered taxa

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